Ion-Beam-Induced Structure Fragmentation and Dewetting in Au/Ti Films

MatSciRN: Other Nanomaterials (Topic) Pub Date : 2021-09-01 DOI:10.2139/ssrn.3859734

C. Codeço, S. Mello, B. F. Magnani, M. Sant'Anna

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引用次数: 1

Abstract

Abstract We investigate the formation of Au structures by continuing fragmentation of a Au film separated from Si (100) substrate by a Ti adhesion layer. The ion-beam processing uses 2 keV Cs+ projectiles. It induces the formation of a large variety of structures with dimensions from tens of microns down to a few nanometers, and shapes that include flat Au islands and clusters of Au nanoparticles. We identify different fragmentation mechanisms. In one pathway, Au structures are formed as pinch-off droplets detached from large Au islands undergoing solid-state dewetting. In a second pathway, a continuing cracking fragmentation produces Au structures with a wide range of sizes and shows self-similarity, expressed in a power law for volume distribution of fragments Vα with α = -2.03±0.05. The measured α value is consistent with theoretical results in the literature modelling strong impact fragmentation. In the last stage of fragmentation evolution, Au nanostructures are spread over a texturized Si background. They assume shapes close to hemispherical, reflecting the increasing relevance of surface tension as dimensions decrease.

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离子束诱导Au/Ti薄膜结构破碎和脱湿

摘要:我们研究了通过Ti粘附层将Au膜从Si(100)衬底上分离的方法来形成Au结构。离子束处理使用2 keV Cs+射弹。它诱导形成了各种各样的结构，尺寸从几十微米到几纳米不等，形状包括扁平的金岛和金纳米颗粒簇。我们确定了不同的碎片化机制。在一种途径中，金结构的形成是在经历固态脱湿的过程中从大的金岛上分离出来的掐断液滴。在第二种途径中，连续破碎破碎产生的Au结构具有广泛的尺寸范围，并表现出自相似性，以碎片Vα体积分布的幂律表示，α = -2.03±0.05。实测α值与模拟强冲击破碎的文献理论结果一致。在碎片化演化的最后阶段，金纳米结构分布在织构化的硅背景上。它们的形状接近半球形，反映了随着尺寸减小，表面张力的相关性越来越大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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MatSciRN: Other Nanomaterials (Topic)

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